DATA EVALUATION ACQUIRED TALYS 1.0 CODE TO PRODUCE ¹¹¹In FROM VARIOUS ACCELERATOR-BASED REACTIONS

Abstract: The Indium-111 physical-decay parameters as a β-emitter radionuclide show some potential for radiodiagnostic and radiotherapeutic purposes. Medical investigators have shown that 111 In is an important radionuclide for locating and imaging certain tumors, visualization of the lymphatic system and thousands of labeling reactions have been suggested. The TALYS 1.0 code was used here to calculate excitation functions of 112/114–118 Sn+p , 110 Cd +3 He , 109 Ag +3 He , 111–114 Cd+p , 110/111 Cd+d , 109 Ag +α to pro… Show more

“…Despite being a well-established classical cyclotron produced radionuclide, it can be produced using novel methods employing SMC. From this point of view, only nuclear reaction 111 Cd(p,n) 111 In is feasible (Alipoor, Gholamzadeh, and Sadeghi, 2011 ). It peaks at 15 MeV with approximately 800 mb reaction cross section.…”

Production of novel diagnostic radionuclides in small medical cyclotrons

“…Despite being a well-established classical cyclotron produced radionuclide, it can be produced using novel methods employing SMC. From this point of view, only nuclear reaction 111 Cd(p,n) 111 In is feasible (Alipoor, Gholamzadeh, and Sadeghi, 2011 ). It peaks at 15 MeV with approximately 800 mb reaction cross section.…”

Production of novel diagnostic radionuclides in small medical cyclotrons

Production and separation of 111In: an important radionuclide in life sciences: a mini review

Simple and efficient method for producing high radionuclidic purity 111In using enriched 112Cd target